Oil pipe stopper

ABSTRACT

An oil pipe stopper includes an upper clamping body, a lower clamping body and an elastic member. The upper clamping body has an underside fixed with a guide post and two sides respectively extending slantingly downward to form an extension member respectively having an outer end provided with a clamping member, and one of the two clamping members is provided thereon with a stopping member and another one is disposed with an engage groove. The lower clamping body positioned beneath the upper clamping body is secured thereon with a positioning pillar with a guide groove for the guide post of the upper clamping body inserted therein and has two sides respectively extending slantingly upward to form an extension member having an outer end disposed with a clamping member respectively fixed with a stopping member at an underside. The elastic member is assembled between the upper and the lower clamping bodies.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates to an oil pipe stopper, particularly to one that can be employed for stopping two different-type oil pipes, able to lower the expense of purchasing tools and convenient to be carried and used.

2. Description of the Prior Art

Generally, when a car is to be repaired, various kinds of oil pipes of the car have to be detached from the car for facilitating maintenance and after the oil pipes are disassembled, the orifices of the oil pipes must be clogged to prevent oil in the oil pipes from leaking out. There are two types of oil pipes: a single orifice-type oil pipe and a double orifice-type oil pipe. A conventional way of stopping a single orifice oil pipe, referring to FIG. 1, is to employ an oil pipe clamp 1 that is composed of an upper clamping plate 10 and a lower clamping plate 11 facing each other. The upper clamping plate 10 and the lower clamping plate 11 are pivotally combined together by a pivot 12, and a torsional spring 13 is provided between the upper clamping plate 10 and the lower clamping plate 11, having two ends respectively resisting against an inner side of one end of the upper and the lower clamping plate 10 and 11. The upper clamping plate 10 has an inner side of another end fixed thereon with a stopping member 100, and the lower clamping plate 11 has another end disposed with an engage groove 110 by which the clamping member 1 can be clamped on an oil pipe A. Thus, the stopping member 100 on the upper clamping plate 10 of the oil pipe clamp 1 can clog the pipe orifice A1 of the oil pipe A, while the oil pipe A can be firmly engaged in the engage groove 110 of the lower clamping plate 11. By so designing, the oil pipe A can be firmly clamped and held by both the upper clamping plate 10 and the lower clamping plate 11, and the pipe orifice A1 of the oil pipe A can be clogged to stop the oil in the oil pipe A from leaking out. A conventional way used for stopping a double orifice-type oil pipe B, referring to FIG. 2, is by means of another oil pipe clamp 2 composed of an upper clamping plate 20 and a lower clamping plate 21 facing each other and pivotally combined together by a pivot 22. A torsional spring 23 is assembled between the upper and the lower clamping plate 20 and 21 and has two ends respectively resisting against an inner side of one end of the upper clamping plate 20 and the lower clamping plate 21. The upper clamping plate 20 and the lower clamping plate 21 respectively have an inner side of another end fixed thereon with a stopping member 200, 210. Thus, the oil pipe B can be clamped and held by the oil pipe clamp 2, and the pipe orifices B1 at two sides of the oil pipe B can respectively be clogged by the stopping member 200 and 210 on the upper clamping plate 20 and the lower clamping plate 21 for preventing the oil in the oil pipe B from leaking out.

However, according to the conventional ways mentioned above, when a car is repaired, two different clamping tools must be prepared for use anytime for matching with two different-typed oil pipes A and B, troublesome and inconvenient in carrying and increasing expense in purchasing clamping tools.

SUMMARY OF THE INVENTION

The objective of this invention is to offer an oil pipe stopper that can be used for stopping two different-typed oil pipes, able to lower the expense of purchasing tools and convenient to be carried and used.

The oil pipe stopper in the present invention includes an upper clamping body, a lower clamping body and an elastic member combined together. The upper clamping body has an underside fixed with a guide post and two sides respectively extending obliquely downward and formed with an extension member having an outer end respectively provided with a clamping member, and one of the two clamping members is secured thereon with a stopping member and another one is bored with an engage groove. The lower clamping body positioned beneath the upper clamping body is provided thereon with a positioning pillar having a guide cavity for the guide post of the upper clamping body to be inserted therein. The lower clamping body further has two sides respectively extending obliquely upward and formed with an extension member, and the two extension members of the lower clamping body and the two extension members of the lower clamping body are arranged in a staggered state. Further, the two extension members of the lower clamping body have their outer ends respectively formed with a clamping member having an underside respectively secured with a stopping member, the two stopping members of the lower clamping body respectively corresponding with the stopping member and the engage groove of the upper clamping body. The elastic member is assembled between the upper clamping body and the lower clamping body.

In addition, the upper clamping body has an underside disposed with a circular positioning groove, and the lower clamping body has its topside also bored with a circular positioning groove for positioning two ends of the elastic member.

BRIEF DESCRIPTION OF DRAWINGS

This invention will be better understood by referring to the accompanying drawings, wherein:

FIG. 1 is a schematic view of a conventional oil pipe clamp used for clogging a single orifice-type oil pipe;

FIG. 2 is a schematic view of a conventional oil pipe clamp used for clogging a double orifice-type oil pipe;

FIG. 3 is an exploded perspective view of an oil pipe stopper in the present invention;

FIG. 4 is a perspective view of the oil pipe stopper in the present invention;

FIG. 5 is a cross-sectional view of the oil pipe stopper pressed down for clamping an oil pipe in the present invention;

FIG. 6 is a schematic view of the oil pipe stopper clamping and stopping a single orifice-type oil pipe in the present invention; and

FIG. 7 is a schematic view of the oil pipe stopper clamping and stopping a double orifice-type oil pipe in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

A preferred embodiment of an oil pipe stopper in the present invention, as shown in FIGS. 3 and 5, includes an upper clamping body 3, a lower clamping body 4 and an elastic member 5 as main components combined together.

The upper clamping body 3 has an underside provided with a guide post 30 and a circular positioning groove 31 and two sides respectively extending obliquely downward and formed with an extension member 32, 33 respectively having an outer end disposed with a clamping member 34, 35. The clamping member 34 is fixed thereon with a stopping member 36 while the clamping member 35 is bored with an engage groove 37.

The lower clamping body 4 positioned under the upper clamping body 3 is secured thereon with a positioning pillar 40 with a guide cavity 41. The lower clamping body 4 further has a topside formed with a circular positioning groove 42 and two sides respectively extending obliquely upward and formed with an extension member 43, 44 respectively having an outer end formed with a clamping member 45, 46 respectively having an underside set with a stopping member 47, 48.

The elastic member 5 is assembled between the upper clamping body 3 and the lower clamping body 4. The elastic member can be for example a spring.

In assembling, referring to FIGS. 3-5, firstly, the elastic member 5 is fitted around the positioning pillar 40 of the lower clamping body 4 and then, the guide post 30 of the upper clamping body 3 is inserted in the guide cavity 41 in the positioning pillar 40 of the lower clamping body 4, letting the extension members 32, 33 of the upper clamping body 3 and the extension members 43, 44 of the lower clamping body 4 are arranged in a staggered state, and having the clamping members 34, 35 of the upper clamping body 3 corresponding with the clamping members 45, 46 of the lower clamping body 4. At this time, the elastic member 5 has one end resisting against the topside of the lower clamping body 4 and another end pushing against the underside of the upper clamping body 3, and the clamping members 34, 45 and 35, 46 of the upper clamping body 3 and the lower clamping body 4 are respectively positioned close to each other in a clamping state.

In using, referring to FIGS. 4-7, the upper clamping body 3 and the lower clamping body 4 of the oil pipe stopper are pressed oppositely, letting the elastic member 5 between the upper clamping body 3 and the lower clamping body 4 stay in an elastically compressed condition and making the clamping members 34, 45 and 35, 46 at two sides of the upper clamping body 3 and the lower clamping body 4 respectively and reversely stretched open outward, as shown in FIG. 5, and then, an oil pipe A or B to be clamped is placed between two corresponding clamping members 34, 45 or 35, 46. To clamp a single orifice oil pipe A, only have the single orifice oil pipe A engaged in the engage groove 37 of the clamping member 35 of the upper clamping body 3. When the upper clamping body 3 and the lower clamping body 4 are released from pressing, the elastic member 5 will recover its elasticity to push the upper clamping body 3 and the lower clamping body 4 to move outward oppositely and simultaneously, the clamping members 34, 45 and 35, 46 at two opposite sides of the upper clamping body 3 and the lower clamping body 4 will be respectively actuated to move inward oppositely in a clamping state to enable the stopping member 48 on the clamping member 46 of the lower clamping body 4 to stably clog the orifice A1 of the oil pipe A to stop oil in the oil pipe A from leaking out, as shown in FIG. 6. To clamp a double orifice-type oil pipe B, simply position the oil pipe B between two clamping members 36 and 47, which are stretched open oppositely at another side of the upper clamping body 3 and the lower clamping body 4 and then release the upper clamping body 3 and the lower clamping body 4 from pressing. At this time, the elastic member 5 will recover elasticity to push the upper clamping body 3 and the lower clamping body 4 to move outward oppositely and actuate the clamping members 34, 45, 35, 46 at two opposite sides of the upper clamping body 3 and the lower clamping body 4 to move inward oppositely in a clamping state to enable the stopping members 36 and 47 on the clamping members 34 and 45 of the upper clamping body 3 and the lower clamping body 4 to stably clog two orifices B1 of the oil pipe B for stopping oil in the oil pipe B from leaking out, as shown in FIG. 7. By so designing, the oil pipe stopper in the present invention can be employed for stopping two different-typed oil pipes A and B, needless to purchase two different-typed oil pipe stopping tools, able to save expense in purchasing tools and convenient to be carried and used.

While the preferred embodiment of the invention has been described above, it will be recognized and understood that various modifications may be made therein and the appended claims are intended to cover all such modifications that may fall within the spirit and scope of the invention. 

What is claimed is:
 1. An oil pipe stopper comprising an upper clamping body, a lower clamping body and an elastic member, said upper clamping body having an underside fixed with a guide post, said upper clamping body having two sides respectively extending slantingly downward and formed with an extension member, said two extension members respectively having an outer end provided with a clamping member, one of said two clamping members secured thereon with a stopping member, another of said clamping member disposed with an engage groove, said lower clamping body assembled under said upper clamping body, said lower clamping body secured thereon with a positioning pillar, said positioning pillar formed with a guide cavity for said guide post of said upper clamping body to be inserted therein, said lower clamping body having two sides respectively extending slantingly upward and formed with an extension member, said extension members of said lower clamping body and said extension members of said upper clamping body arranged in a staggered state, said two extension members of said lower clamping body having their outer ends respectively set with a clamping member, said two clamping members having their undersides respectively fixed with a stopping member, said two stopping members of said lower clamping body respectively corresponding with said stopping member and said engage groove of said upper clamping body, said elastic member positioned between said upper clamping body and said lower clamping body.
 2. The oil pipe stopper as claimed in claim 1, wherein said upper clamping body has an underside provided with a circular positioning groove while said lower clamping body is also disposed with a circular positioning groove at topside, said two circular positioning grooves respectively positioning two ends of said elastic member.
 3. An oil pipe stopper substantially as hereinbefore described with reference to and as shown in FIGS. 3 to 7 of the accompanying drawings. 